A parametric analysis of free vibration and bending behavior of sandwich beam containing an open-cell metal foam core

Free vibration and bending behavior of sandwich beams containing open-cell metal foam core are studied in the present work using zigzag theory. Hamilton’s principle and the principle of minimum potential energy are applied for determining the governing equations for free vibration and bending behavi...

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Published inArchives of Civil and Mechanical Engineering Vol. 22; no. 1; p. 56
Main Authors Garg, A., Chalak, H. D., Belarbi, M. -O., Zenkour, A. M.
Format Journal Article
LanguageEnglish
Published London Springer London 25.01.2022
Springer Nature B.V
Subjects
Beams (structural)
Bending
Civil Engineering
Engineering
Free vibration
Graphene
Hamilton's principle
Mechanical Engineering
Metal foams
Open cell porosity
Original Article
Parametric analysis
Potential energy
Sandwich structures
Shear stress
Structural Materials
Vibration analysis
Sandwich beam
Bending
Free vibration
Metal foam
Finite element
Online AccessGet full text
ISSN2083-3318
1644-9665
2083-3318
DOI10.1007/s43452-021-00368-3

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Abstract Free vibration and bending behavior of sandwich beams containing open-cell metal foam core are studied in the present work using zigzag theory. Hamilton’s principle and the principle of minimum potential energy are applied for determining the governing equations for free vibration and bending behavior, respectively. Three types of distribution of pores are used during the present study. The influence of the distribution of pores, end condition, thickness of the core, foam coefficients on beam behavior is studied in detail. The face sheets are assumed to be made up of the same material like foam. It was noticed that the nature of the distribution of pores and the end conditions widely determine the behavior of the beam.
AbstractList Free vibration and bending behavior of sandwich beams containing open-cell metal foam core are studied in the present work using zigzag theory. Hamilton’s principle and the principle of minimum potential energy are applied for determining the governing equations for free vibration and bending behavior, respectively. Three types of distribution of pores are used during the present study. The influence of the distribution of pores, end condition, thickness of the core, foam coefficients on beam behavior is studied in detail. The face sheets are assumed to be made up of the same material like foam. It was noticed that the nature of the distribution of pores and the end conditions widely determine the behavior of the beam.
ArticleNumber 56
Author Garg, A.
Chalak, H. D.
Belarbi, M. -O.
Zenkour, A. M.
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  surname: Zenkour
  fullname: Zenkour, A. M.
  email: zenkour@kau.edu.sa, zenkour@sci.kfs.edu.eg
  organization: Department of Mathematics, Faculty of Science, King Abdulaziz University, Department of Mathematics, Faculty of Science, Kafrelsheikh University
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Keywords Sandwich beam
Bending
Free vibration
Metal foam
Finite element
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Snippet Free vibration and bending behavior of sandwich beams containing open-cell metal foam core are studied in the present work using zigzag theory. Hamilton’s...
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SubjectTerms Beams (structural)
Bending
Civil Engineering
Engineering
Free vibration
Graphene
Hamilton's principle
Mechanical Engineering
Metal foams
Open cell porosity
Original Article
Parametric analysis
Potential energy
Sandwich structures
Shear stress
Structural Materials
Vibration analysis
Title A parametric analysis of free vibration and bending behavior of sandwich beam containing an open-cell metal foam core
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